Rofin-Sinar Inc

Plymouth, MI 48170

COMPANY OVERVIEW

About Rofin-Sinar Inc

100

Contact

40984 Concept Dr
Plymouth, MI 48170
United States
http://www.rofin.com
734-455-5400
734-455-2741

More Info on Rofin-Sinar Inc

Manufactures COv(2), Nd:YAG, laser markers, and custom-made system solutions. Lasers are used for cutting materials, welding parts, heat-treating metals, and surface hand-facing metals. Power ranges from 25 to 10,000W.

Products

Buyer's Guide

FL Series

The FL Series are high power fiber lasers ranging from 500 - 2,000 watts. Fiber diameters of 20um to 800um are offered, in addition to a variety beam delivery and processing head...
Home

DC Slab series

No moving parts

Articles

(Courtesy of IPG Photonics)
FIGURE 1. The cylindrical surface of a bore for an automobile engine is micromachined using a 2 kW single-mode fiber laser from IPG Photonics, then sprayed with plasma to create a hard coating that replaces conventional cylinder liners. Laser-machined microgrooves help the resulting coating to adhere to the cylinder.
FIGURE 1. The cylindrical surface of a bore for an automobile engine is micromachined using a 2 kW single-mode fiber laser from IPG Photonics, then sprayed with plasma to create a hard coating that replaces conventional cylinder liners. Laser-machined microgrooves help the resulting coating to adhere to the cylinder.
FIGURE 1. The cylindrical surface of a bore for an automobile engine is micromachined using a 2 kW single-mode fiber laser from IPG Photonics, then sprayed with plasma to create a hard coating that replaces conventional cylinder liners. Laser-machined microgrooves help the resulting coating to adhere to the cylinder.
FIGURE 1. The cylindrical surface of a bore for an automobile engine is micromachined using a 2 kW single-mode fiber laser from IPG Photonics, then sprayed with plasma to create a hard coating that replaces conventional cylinder liners. Laser-machined microgrooves help the resulting coating to adhere to the cylinder.
FIGURE 1. The cylindrical surface of a bore for an automobile engine is micromachined using a 2 kW single-mode fiber laser from IPG Photonics, then sprayed with plasma to create a hard coating that replaces conventional cylinder liners. Laser-machined microgrooves help the resulting coating to adhere to the cylinder.
Lasers & Sources

Photonics Products: High-power Fiber Lasers: Kilowatt-level fiber lasers mature

Today's high-power CW fiber lasers have become naturals at reliable, capable materials processing.
FIGURE 1. A new cladding process developed at the Fraunhofer Center for Surface and Laser Processing utilizes a 3 kW direct diode laser and a coaxial powder-feeding nozzle.
FIGURE 1. A new cladding process developed at the Fraunhofer Center for Surface and Laser Processing utilizes a 3 kW direct diode laser and a coaxial powder-feeding nozzle.
FIGURE 1. A new cladding process developed at the Fraunhofer Center for Surface and Laser Processing utilizes a 3 kW direct diode laser and a coaxial powder-feeding nozzle.
FIGURE 1. A new cladding process developed at the Fraunhofer Center for Surface and Laser Processing utilizes a 3 kW direct diode laser and a coaxial powder-feeding nozzle.
FIGURE 1. A new cladding process developed at the Fraunhofer Center for Surface and Laser Processing utilizes a 3 kW direct diode laser and a coaxial powder-feeding nozzle.
Lasers & Sources

OPTOELECTRONIC APPLICATIONS: Materials Processing - Diode lasers test their mettle in surface treatment

Multikilowatt diodes are challenging Nd:YAG and CO2 systems for welding, hardening, alloying, and cladding of metal products.

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